JP2007038189A - Separation apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a separation apparatus which can separate gas/liquid/solid respectively by solving the problem that the conventional separation apparatus can not separate a liquid from a solid. <P>SOLUTION: This separation apparatus is equipped with a funnel-shaped first cyclone generation part 11, an inflow port 12 for gas/liquid/solid disposed at the upper part of this first cyclone generation part 11 in a tangent direction, and a suction port 17 disposed at the upper center of the first cyclone generation part 11. The apparatus is provided with a cylindrical second cyclone generation part 18 connected to the lower part of the first cyclone generation part 11, a hose 21 connected to the center of the bottom surface 18a of this second cyclone generation part 18, and a waste liquid storage part 22 installed at the lower end of this hose 21. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a separation device for separating gas, liquid, and solid.

  Hereinafter, a conventional sorting apparatus will be described. The conventional sorting apparatus has a configuration as shown in FIG. In FIG. 3, reference numeral 1 denotes a funnel-shaped cyclone generator, and reference numeral 2 denotes an inlet provided in a tangential direction above the cyclone generator 1. Reference numeral 3 denotes a suction port provided in the upper center of the cyclone generator 1, and reference numeral 4 denotes a discharge port provided in the center of the bottom of the cyclone generator 1.

  The operation of the sorting apparatus configured as described above will be described below. Garbage 8 in which gas 5, liquid 6 and solid 7 are mixed is provided at the inlet 2 so that it can flow in. Then, when sucking out from the suction port 3, the dust 8 flows into the cyclone generator 1. Due to the suction from the suction port 3, a tornado is generated in the cyclone generator 1. Among the dust 8 flowing into the cyclone generator 1, the gas 5 is discharged to the outside from the suction port 3 and the liquid 6 and the solid 7 are discharged It is discharged from the outlet 4.

As prior art document information related to the invention of this application, for example, Patent Document 1 and Patent Document 2 are known.
JP-A-6-205917 Japanese Utility Model Publication No. 57-149853

  In such a conventional sorting apparatus, the gas 5 and the liquid 6 or the gas 5 and the solid 7 can be separated at a time. However, liquid 6 and solid 7 could not be separated.

  Therefore, when such a sorting device is connected to a dicing device and dust 8 generated when cutting a printed circuit board or the like is collected, the solid 7 which is mixed with the liquid 6 and is a chip of the printed circuit board is also discharged. 4 will be discharged. Such discharge cannot be discharged as it is, and the discharge in which the liquid 6 and the solid 7 are mixed must be filtered with a filter or the like, separated into the liquid 6 and the solid 7 and discarded. There was a problem.

  Therefore, the present invention has been made to solve this problem, and an object of the present invention is to provide a separation device that can separate gas, liquid, and solid separately.

  In order to achieve this object, the separation device of the present invention is connected to the lower part of the first cyclone generator and has a cylindrical second cyclone generator, and the bottom surface of the second cyclone generator. A hose connected to the center and a waste liquid storage unit installed at the lower end of the hose are provided.

  Thereby, the intended purpose can be achieved.

  According to the present invention, the second cyclone generator having a cylindrical shape and the second cyclone generator connected to the lower part of the first cyclone generator and the center of the bottom surface of the second cyclone generator are provided. Since the hose and the waste liquid storage part installed at the lower end of the hose are provided, the second cyclone phenomenon also occurs in the second cyclone generator, and the second cyclone phenomenon causes a centrifugal force. The solid is deposited in the vicinity of the lower side surface of the second cyclone generator, and the liquid is led out from a hose connected to the center of the bottom surface. That is, the liquid and the solid can be separated, and as a conclusion, the gas, the liquid and the solid can be separated separately and at a time.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Embodiment 1)
FIG. 1 is a cross-sectional view of a sorting apparatus according to Embodiment 1 of the present invention. In FIG. 1, 11 is a funnel-shaped first cyclone generator, which is made of resin. The upper diameter is about 190 mm, and the height is about 400 mm.

  Reference numeral 12 denotes an inlet provided in the tangential direction (see FIG. 2) above the first cyclone generator 11. The diameter of the inlet 12 is about 30 mm, and the inlet 12 is connected in the vicinity of the printed circuit board cutting portion of the dicing apparatus. Then, a cutting piece (used as an example of solid) 13 discharged from the inlet 12 when cutting the printed circuit board, water (used as an example of liquid) 14 for cooling during cutting, and air (gas 15 mixtures 16 (used as an example) flow in.

  Reference numeral 17 denotes a suction port provided at the upper center of the first cyclone generator 11 and has a diameter of about 32 mm. From this suction port 17, 1.3 cubic meters of air 15 is sucked per minute. Due to this suction force, a cyclone phenomenon (tornado) is generated inside the first cyclone generator 11, and a mixture 16 of the cutting piece 13, water 14 and air 15 flowing into the first cyclone generator 11. Of these, the air 15 is separated and discharged from the suction port 17.

  A second cyclone generator 18 having a cylindrical shape is connected to the bottom surface of the first cyclone generator 11. The first cyclone generator 11 and the second cyclone generator 18 are connected by a hole 19 having a diameter of 60 mm provided at the center of the bottom surface of the first cyclone generator 11. The second cyclone generator 18 is made of resin and has a diameter of about 290 mm and a height of about 390 mm.

  Reference numeral 18a denotes a bottom surface that forms the cyclone generator 18. The bottom surface 18a is detachably connected to a side surface 18b of the cyclone generator 18 main body. A discharge port 24 having a diameter of 13 mm is provided at the center of the bottom surface 18a, and a donut-shaped bank 20 having a height of 4mm and a diameter of 46mm is provided so as to surround the discharge port 24.

  A resin hose 21 having an inner diameter of 13 mm is connected to the discharge port 24. A waste liquid storage unit 22 having a diameter of 600 mm and a height of 230 mm is disposed at the lower end of the hose 21. The distance from the base 23 on which the waste liquid storage unit 22 is placed to the bottom surface 18a of the second cyclone generator 18 is about 950 mm.

  FIG. 2 is a plan view of the first cyclone generator 11. In FIG. 2, 12 is an inflow port, which is provided in the horizontal direction and tangential direction of the first cyclone portion 11 having a funnel shape. 19 is a hole for connecting the first cyclone generator 11 and the second cyclone generator 18, and is provided so as to be connected to the bottom surface of the first cyclone unit 11 and the top surface of the second cyclone generator 18. Yes.

  The operation of the sorting apparatus configured as described above will be described below. By sucking out the air 15 from the suction port 17, the atmospheric pressure of the first cyclone generator 11 is lowered. Then, from the inlet 12, the mixture 16 of the cutting piece 13, the water 14 and the air 15 generated at the time of cutting the printed circuit board by the dicing apparatus flows in at a speed of approximately 30 m / second. At this time, since the inlet 12 is attached in the tangential direction of the cyclone generator 11, a cyclone phenomenon (tornado) occurs in the first cyclone generator 11.

  Then, the air 15 is separated and discharged from the suction port 17, and the water 14 and the cutting piece 13 are transmitted along the side wall of the first cyclone generator 11 by centrifugal force and flow into the second cyclone generator 18 from the hole 19. To do. Also in the second cyclone generator 18, the first cyclone generator 11 is connected to the hole 19, so that a cyclone phenomenon occurs. Due to this cyclone phenomenon, the water 14 and the cutting piece 13 are guided downward along the side wall of the second cyclone generator 18 by centrifugal force. And the cutting piece 13 accumulates on the bottom face 18a.

  Here, due to the cyclone phenomenon that occurs in the second cyclone generator 18, the atmospheric pressure in the second cyclone generator 18 decreases. Then, due to the pressure drop, the water 14 stored in the waste liquid storage unit 22 rises in the hose 21 and becomes the water level 14a. This water level 14a rises in the hose 21 from the base 23 to a height of about 720 mm.

  At this time, since the height of the bottom surface 18a is set to about 950 mm from the base 23, a space 25 of about 230 mm is formed between the bottom surface 18a and the water level 14a. It is important that the space 25 is generated, and the cyclone phenomenon occurs from the bottom surface (water level 14a) of the space 25. As a result, the water 14 is guided over the bank 20 into the space 25 in the hose 21. The water 14 guided to the space 25 is guided to the waste liquid storage unit 22 via the hose 21.

  In this way, the mixture 16 of the cutting piece 13, the water 14 and the air 15 is separated separately and at a time. That is, the air 15 is sucked out from the suction port 17, the water 14 is stored in the waste liquid storage unit 22, and the cutting piece 13 is deposited on the bottom surface 18 a. Therefore, unlike the prior art, there is no need to separate the water 14 and the cutting piece 13 anew, and work efficiency can be improved.

  The bottom surface 18a and the side surface 18b of the second cyclone generator 18 are configured to be detachable. Therefore, the side surface 18b forming the second cyclone generator 18 main body can be easily removed from the bottom surface 18a, and the accumulated cutting pieces 13 can be easily removed.

  Moreover, since the bank 20 is provided, the cutting piece 13 does not cross the bank 20 and enter the waste liquid storage unit 22 due to the cyclone phenomenon. Further, when the cutting piece 13 is taken out, the cutting piece 13 is not dropped into the hose 21 from the discharge port 24 by the operator's carelessness, and the cutting piece 13 and the water 14 are not mixed.

  Since the separation apparatus of the present invention can separate gas, liquid and solid separately, it can be applied to separation of gas, liquid and solid in production facilities and the like.

Sectional drawing of the sorting apparatus in one embodiment of this invention The top view of the first cyclone generator Sectional view of a conventional sorting device

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 1st cyclone generating part 12 Inflow port 13 Cutting piece 14 Water 15 Air 16 Mixture 17 Outlet 18 Second cyclone generating part 18a Bottom face 21 Hose 22 Waste liquid storage part

Claims (3)

A funnel-shaped first cyclone generator, a gas / liquid / solid inlet provided above the first cyclone generator in a tangential direction, and an upper center of the first cyclone generator And a second cyclone generator having a cylindrical shape and connected to the center of the bottom surface of the second cyclone generator, and connected to the lower part of the first cyclone generator. A separating device provided with a hose provided as a waste liquid and a waste liquid storage unit installed at the lower end of the hose. The sorting device according to claim 1, wherein a bottom surface and a side surface of the second cyclone generator are detachably provided. The sorting apparatus according to claim 1, wherein a bank is provided so as to surround an opening of a hose connected to a bottom surface of the second cyclone generator.

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